Split type concrete model production equipment
By designing a split-type concrete model production equipment, the problems of large size, difficult transportation, and complex maintenance of existing equipment have been solved, realizing convenient use and efficient production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO CO NELE MACHINERY
- Filing Date
- 2025-04-12
- Publication Date
- 2026-06-19
AI Technical Summary
Existing integrated large-scale concrete production equipment is bulky, difficult to transport, complex to maintain, and has low production efficiency.
Design a modular mud model production equipment, including a batching and mixing module and a mixing and molding module. Each module can be disassembled and assembled, and is equipped with an electrical control system and a monitoring system to enable convenient use of the equipment.
It improves the convenience and production efficiency of the equipment, and reduces the difficulty of transportation and maintenance.
Smart Images

Figure CN224374440U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of building material production technology, specifically relating to a split-type concrete model production equipment. Background Technology
[0002] Concrete-based building materials are common semi-solid raw materials in the industry. When used to create solid, shaped building materials, they offer advantages such as uniformity, strength, and durability. The production of these shaped building materials involves multiple processes, including raw material color matching, mixing, venting, and shaping, requiring comprehensive production equipment. However, existing large-scale integrated production equipment is bulky, difficult to transport between different construction sites, complex to maintain, and inefficient. Utility Model Content
[0003] The purpose of this invention is to provide a split-type concrete model production equipment to solve the problems in the prior art.
[0004] To achieve the above objectives, the present invention provides the following technical solution:
[0005] A split-type mud model production equipment includes a batching and mixing module and a mixing and molding module. The batching and mixing module is connected to the mixing and molding module. The batching and mixing module includes a batching device and a mixing host. The batching device is connected to the mixing host. The mixing and molding module includes a mixing device and a shaping device. The mixing device is connected to the shaping device.
[0006] Furthermore, the mixing host is equipped with a mixing bin and a mixing wheel. The mixing wheel is located inside the mixing bin, and the bottom of the mixing bin is connected to the first discharge pipe.
[0007] Furthermore, the mixing device is equipped with a mixing chamber and a stirring arm. The stirring arm is located inside the mixing chamber. The bottom of the mixing chamber is connected to a second discharge pipe, and the first discharge pipe is connected to the top of the mixing chamber.
[0008] Furthermore, the shaping device is equipped with a shaping mold, the top of which is connected to the second unloading pipe.
[0009] Furthermore, the batching and mixing module also includes a pigment supply device, which is connected to the batching device. The pigment supply device includes a pigment feeder and a pigment meter, with the pigment feeder and pigment meter connected to each other.
[0010] Furthermore, the batching device includes a storage bin, a metering hopper, and a crawler bucket. The discharge port of the storage bin is connected to the inlet of the metering hopper, and the discharge port of the metering hopper is connected to the crawler bucket.
[0011] Furthermore, it also includes an elevator with guide rails that transport the buckets to the top of the mixing host.
[0012] Furthermore, the bottom of the mixing silo is connected to a sewage pipe.
[0013] Furthermore, the pigment meter has a pigment outlet that connects to the opening of the hopper.
[0014] Furthermore, a metering system is also provided, which is connected to the top of the mixing host.
[0015] This utility model provides a split-type mud model production equipment, in which a batching and mixing module is connected to a mixing and molding module. The batching and mixing module includes a batching device and a mixing host, with the batching device connected to the mixing host. The mixing and molding module includes a mixing device and a shaping device, with the mixing device connected to the shaping device. Different modules and different devices within a module can be disassembled and assembled, increasing the ease of use of the equipment. Attached Figure Description
[0016] Figure 1 A schematic diagram of the structure of the split-type concrete model production equipment provided in a preferred embodiment of this utility model;
[0017] Figure 2 A schematic diagram of the feeding device provided in a preferred embodiment of this utility model.
[0018] In the diagram: 11-climbing bucket, 12-elevator guide rail, 13-material storage bin for batching device, 14-measuring hopper for batching device, 2-mixing host, 3-mixing device, 4-shaping device, 5-pigment supply device, 6-metering system, 21-mixing bin, 22-first unloading pipe, 23-mixing bin unloading valve, 24-drainage pipe, 25-mixing host support, 31-mixing bin, 32-mixing arm, 33-second unloading pipe, 34-mixing bin support, 41-shaping mold, 51-pigment feeder, 52-pigment meter, 53-pigment supply device support. Detailed Implementation
[0019] The specific embodiments of this utility model will be described in further detail below with reference to the accompanying drawings. The following examples are used to illustrate this utility model, but are not intended to limit its scope.
[0020] Please see Figure 1 This embodiment provides a split-type mud model production equipment, including a batching and mixing module and a mixing and forming module. The batching and mixing module is connected to the mixing and forming module. The batching and mixing module includes a batching device and a mixing host 2. The batching device is connected to the mixing host 2. The mixing and forming module includes a mixing device 3 and a shaping device 4. The mixing device 3 is connected to the shaping device 4.
[0021] Specifically, the mixing host 2 is equipped with a mixing chamber 21 and a stirring wheel (not shown in the figure). The stirring wheel is located inside the mixing chamber 21 and is used to mix the materials inside the mixing chamber 21 evenly. The bottom of the mixing chamber 21 is provided with a first discharge port, which is connected to an external first discharge pipe 22. The mixing device 3 is equipped with a mixing chamber 31, and the first discharge pipe 22 is connected to the top of the mixing chamber 31. A stirring arm 32 is provided inside the mixing chamber 31. The bottom of the mixing chamber 31 is provided with a second discharge port, which is connected to an external second discharge pipe 33. The shaping device 4 is equipped with a shaping mold 41, and the top of the shaping mold 41 is connected to the second discharge pipe 33.
[0022] In addition, a feed inlet is provided at the top of the mixing silo 21, and a water meter and a wastewater meter are installed at the feed inlet. A drain outlet is also provided at the bottom of the mixing silo 21, which is connected to an external drain pipe 24.
[0023] In this embodiment, the batching and mixing module further includes a pigment supply device 5, which is connected to the batching device. The pigment supply device 5 includes a pigment feeder 51 and a pigment metering device 52. The pigment feeder 51 and the pigment metering device 52 have pigment outlets, which are connected to the opening of the hopper 11 to inject the metered pigment into the hopper 11. The pigment feeder 51 has a pigment storage bin and a mixing wheel. The batching device includes the hopper 11 and a hoist guide rail 12, and the pigment metering device 52 is connected to the hopper 11. The hoist guide rail 12 conveys the hopper 11 containing mud with pigment to the upper part of the mixing host 2. The batching device includes a storage bin 13, a metering hopper 14, and the hopper 11. The lower end of the storage bin 13 has a discharge port, the upper end of the metering hopper 14 has a feed port, and the lower end of the metering hopper 14 has a discharge port. The discharge port of the storage bin 13 is connected to the feed port of the metering hopper 14, and the discharge port of the metering hopper 14 is connected to the hopper 11. The split-type mud model production equipment provided in this embodiment also includes a hoist, which has a guide rail. The hoist guide rail 12 transports the bucket 11 to the top of the mixing host 2.
[0024] A metering system 6 is connected to the feed inlet at the top of the mixing silo 21. The metering system 6 includes a powder meter, a liquid meter, and an admixture meter. The powder meter, liquid meter, and admixture meter inject their respective metered materials into the feed inlet at the top of the mixing silo 21. In this embodiment, a cement silo can be installed externally. A conveyor belt is installed between the cement silo and the admixture feed inlet, and cement and other powdery materials are conveyed from the cement silo into the admixture feed inlet via the conveyor belt. A monitoring system is also installed on the top of the mixing host 2, with the monitoring camera facing inwards from the mixing silo 21.
[0025] The split-type mud model production equipment provided in this embodiment is equipped with an electrical control system and a control room. The control room enables the observation of the monitoring system, and the electrical control system enables the electrical control of different devices such as the batching device, the mixing host, the stirring device, the shaping device, and the pigment supply device.
[0026] The workflow of the split-type concrete model production equipment provided by this utility model is as follows.
[0027] Measuring hopper 14 injects a fixed amount of material into climbing hopper 11, pigment supply device 5 supplies pigment into climbing hopper 11, and elevator guide rail 12 conveys climbing hopper 11 to the upper part of mixing host 2. Measuring system 6 then injects other materials into mixing bin 21. Water metering device of mixing host 2 controls the amount of water entering mixing bin 21, and mixing bin 21 begins primary mixing. The control room, through observation of the monitoring system or through the preset mixing time of mixing host 2 by the electrical control system, controls mixing host 2 to complete mixing. After mixing, mixing host 2 opens the pressure relief valve of the first discharge port, and the initially mixed mud enters the mixing chamber 31 through the first discharge pipe 22. Next, the electrical control system controls the mixing arm 32 to perform secondary mixing of the mud in mixing chamber 31. The secondary mixed mud enters the shaping device 4 through the second discharge pipe 33 connected to the second discharge port, i.e., is poured into the shaping mold 41 for forming. When mixing host 2 needs cleaning, the wastewater entering mixing bin 21 is controlled by wastewater metering device to complete the primary cleaning. If a secondary cleaning is required, the clean water entering the mixing hopper 21 is controlled by the water meter to complete the secondary cleaning.
[0028] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. A split-type concrete model production equipment, characterized in that, It includes a batching and mixing module and a mixing and forming module. The batching and mixing module is connected to the mixing and forming module. The batching and mixing module includes a batching device and a mixing host. The batching device is connected to the mixing host. The mixing and forming module includes a mixing device and a shaping device. The mixing device is connected to the shaping device.
2. The split-type concrete model production equipment according to claim 1, characterized in that, The mixing host is equipped with a mixing bin and a mixing wheel. The mixing wheel is located inside the mixing bin, and the bottom of the mixing bin is connected to the first discharge pipe.
3. The split-type concrete model production equipment according to claim 2, characterized in that, The bottom of the mixing silo is connected to a drain pipe.
4. The split-type concrete model production equipment according to claim 2, characterized in that, The mixing device is equipped with a mixing chamber and a stirring arm. The stirring arm is located inside the mixing chamber. The bottom of the mixing chamber is connected to a second discharge pipe, and the first discharge pipe is connected to the top of the mixing chamber.
5. The split-type concrete model production equipment according to claim 1, characterized in that, The shaping device is equipped with a shaping mold, and the top of the shaping mold is connected to the second unloading pipe.
6. The split-type concrete model production equipment according to claim 1, characterized in that, The batching and mixing module also includes a pigment supply device, which is connected to the batching device. The pigment supply device includes a pigment feeder and a pigment meter, with the pigment feeder and pigment meter connected to each other.
7. The split-type concrete model production equipment according to claim 6, characterized in that, The pigment meter has a pigment outlet, which is connected to the opening of the bucket.
8. The split-type concrete model production equipment according to claim 1, characterized in that, The batching device includes a storage bin, a metering hopper, and a crawler hopper. The discharge port of the storage bin is connected to the inlet of the metering hopper, and the discharge port of the metering hopper is connected to the crawler hopper.
9. The split-type concrete model production equipment according to claim 8, characterized in that, It also includes an elevator with guide rails that transport the buckets to the top of the mixing unit.
10. The split-type concrete model production equipment according to any one of claims 1 to 9, characterized in that, A metering system is also provided, which is connected to the top of the mixing host.